INTRODUCTION This menu book is intended for setting up your bar code reader to optimize its performance for your particular application. When the required options have been configured, they remain in the reader, even after power down. The reader can be returned to factory default by reading the default label.
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Besides options, some chapters have commands. The commands need to be scanned directly, without reading the “SET” and “END” labels. The commands are executed directly and, unlike options, are not stored in non-volatile memory. Configuring via the menu book To configure the required options proceed as follows: ...
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* The reader will now operate to your personal preference. See figure 0.02. Package Content Pistol grip with 2D image scanner (x1) Stylus (x 1) Battery pack for pistol grip (x 1) PG-200/2D-O user manual (x 1) - 3 -...
1. GENERAL OPTIONS 1.1. Restore to Factory Default Settings This option allows you to undo all previously configured options and bring the reader's configuration back to factory default settings. These factory default settings are printed in bold. Note that differences may occur depending on the type of interface as will be mentioned in the text.
1.2. Switch User Interface and Reset to Default Settings This option allows you to switch among multiple interfaces, including USB HID, and Virtual COM, according to your needs. And, the current settings will be automatically reset to factory default settings once the user interface is changed. To verify your configuration, it is strongly advised to unplug and then re-plug the cable after the relevant barcode labels are scanned.
dark place while it can be used in a lighted environment. No illumination detection 1.4.2 Prevention of flicker When there is no target to be read, flicker occurs because of the LED illumination, and this flicker can be prevented with setting. However, it is normally suggested not to enable LED illumination flicker prevention, a feature which will make it difficult to read barcodes on LCD screens once activated.
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be transmitted. How to set data transmission interval: Please follow the example below to scan the sequence of barcode labels to set the data transmission interval to be 2 ms: <SET> <USB HID Transfer Interval> <bInterval=2> <END> USB HID transfer interval bInterval = 1 bInterval = 2...
2. INTERFACE This chapter describes the configurable transmission options for your reader. Some options may not be relevant to the type of reader you have. An attempt to configure the reader for such options does not affect its operation and usually results in the reader producing an error tone, indicating you tried to make an illegal configuration entry.
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Without keyboard: Use this mode in case no keyboard is connected to the PC wedge Y-cable. In some cases this mode is required in case only a PC USB keyboard is connected. If this option is enable, the computer can detect the wedge as a keyboard. In case the computer reports a keyboard error or in case no data is displayed, try this option.
Italian Spanish Portuguese Swiss ( French ) Swiss ( German ) Dutch Belgian Swedish Finnish Danish Norwegian Japanese Czech 2.1.2. Special options This section contains some specialized keyboard options. Do not use numpad: The reader wil emulate the numerical keys on the alpha keypad when transmitting numerical data.
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Auto NumLock mode: When selecting this option, the bar code reader automatically uses the correct NumLock state. No CAPSLOCK mode: This options cancels the CAPSLOCK mode. CAPSLOCK mode: This option ensures that data is displayed correctly when the keyboard is normally in CAPSLOCK mode.
2.1.3. Intercharacter delay for wedges/USB The intercharacter delay can be used to adapt the reader's data transmission speed to the system. If the transmission speed is too high, the system may not be able to receive all characters. Adjust the intercharacter delay until the data is received correctly.
3. CODE OPTIONS The menu options in this chapter are intended to adjust the decoding settings of the reader: which bar code types can be read the permissible length of the bar codes to be read bar code specific options Note: This manual categorizes the barcodes as groups of different symbologies with their translations and sometimes with relations to other family names.
3.1. Setting of readable codes These options do not affect the reading of the menu labels. The required bar code types can be selected by enabling a single readable code only and enabling readable codes. It is strongly recommended to select only the required codes. Advantages of selecting only the required codes are: faster reading ...
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See figure 3.02. Example 3: If you want to read a code that is changed to another family name, read the new name. RSS+14: read the option ‘GS1 Databar’. See figure 3.03. 3.1.1. Enabling a single read. code All codes excl. add-on Only all UPC and EANcodes UPC only UPC + 2 only...
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UPC + 5 only EAN only EAN + 2 only EAN + 5 only Code 39 only Tri-Optic only Codabar only Industrial 2of5 only Interleaved 2of5 only S-Code only Matrix 2of5 only Chinese Post Matrix 2of5 only Korean Postal Authority code only Intelligent Mail Barcode only POSTNET only IATA only...
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UK/Plessey only Code 128 only Code 93 only Code 11 only GS1 DataBar only GS1 DataBar Limited only GS1 DataBar Expanded only Codablock F only DataMatrix ECC000 - 140 only DataMatrix ECC200 only Aztec only Aztec runes only Chinese Sensible code only QR Code only Micro QR Code only Maxicode only...
Enable all 1D codes only Enable all 2D codes only 3.1.2. Enabling of readable codes With this option you can set the reader to read a number of bar code types or simply enable additional bar code types. Example: If you only want to read Code 39 and Code 128, you read 'Code 39 only' and 'enable Code 128'.
Enable Micro QR Code Enable Maxicode Enable PDF417 Enable MicroPDF417 Enable all 1D codes Enable all 2D codes Disable all 3.2. Setting of number of characters If you are going to read bar codes of known length, it is recommended to set the reader for a fixed number of characters.
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Fixed length ON all codes. This option enables the fixed length checking. Two fixed lengths are programmed which will affect all variable length codes. This is done by reading the following labels: <SET> <Fixed length ON - all codes> a bar code with the required length, a second bar code with the required length (this may be the same length as the first one) <END>...
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See figure 3.07. Fixed length ON for selected codes: This option enables fixed length checking for different bar code types and will only affects the bar code types read. The number of fixed lengths which can be configured is reader dependent. <SET>...
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Minimum length for selected codes: This option modifies the default minimum length table. The number of minimum lengths which can be configured is reader dependent. This is done by reading the following labels: <SET> <Minimum length for selected codes> Scan bar codes of the required type and length <END>...
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Example: The two following examples shown in the next figure have the following result: In the first example only Code 39 labels will be checked for a maximum length of 12 characters. Any other bar code types will not be checked for a maximum length. In the second example Code 39 labels will be checked for a maximum length of 12 characters and Interleaved 2of5 labels for a maximum length of 14 characters.
<ESC>HL V02<CR> Setting maximum length for selected codes, for Code 39 with a length of 12 and Interleaved 2of5 with length of 14: <ESC>HM V12 N14<CR> Setting of number of characters Fixed length OFF all codes Fixed length ON all codes Fixed length ON for selected codes...
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Transmit CD: This option enables the transmission of the check digit together with the data characters. If the check digit calculation is disabled, the reader can not differentiate anymore between a (valid) check digit and a data character. It will therefore transmit all data characters of the label, including what could constitute a check digit.
UPC-A add-on 2/add-on 5: The UPC-A symbology as described above can be succeeded by an additional 2 or 5 digit UPCA code. For string format see figure 3.13. Options for UPC-A: disable transmission of the leading zero disable transmission of the check digit ...
For string format see figure 3.14. UPC-E add-on 2/add-on 5: The UPC-E symbology as described above can be succeeded by an additional 2 or 5 digit UPCE code. For string format see figure 3.15. UPC-E0 stands for UPC version E0 and the first digit is always a '0'. UPC-E1 stand for UPC version E1 and the first digit is a '1'.
UPC-E, Leading digit, not transmit CD Transmit UPC-E as is Transmit UPC-E as UPCA 3.3.3. Options for EAN-13 and EAN-8 EAN-13: The EAN-13 symbology is a fixed length symbology encoding 12 data digits, a check digit and non-printable start/stop characters. The following characters are supported: the digits 0 upto 9 ...
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For string format see figure 3.18. EAN-8 add-on 2/add-on 5: The EAN-8 symbology as described above can be succeeded by an additional 2 or 5 digit code. For string format see figure 3.19. Options for EAN: disable transmission of the check digit ...
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Options for EAN-13 and EAN-8 EAN-13 not transmit CD EAN-13 transmit CD EAN-8 not transmit CD EAN-8 transmit CD Disable ISBN translation Enable ISBN translation Enable ISBN if possible Disable ISSN translation Enable ISSN translation Enable ISSN if possible Disable ISMN translation Enable ISMN translation Enable ISMN if possible - 32 -...
3.3.4. Options for Code 39 and It. Pharm. Code 39: Code 39 is a variable length symbology with an optional check digit and printable start/stop characters. The following characters are supported: the digits 0 up to 9 the upper case characters A up to Z ...
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Normal Code 39: In this mode the decoded data characters are transmitted without further translation. Full ASCII Code 39: In this mode the decoded data characters are translated to full ASCII Code 39. Full ASCII Code 39 if possible: In this mode the decoded data characters are translated to full ASCII Code 39. Invalid combinations are not translated and are transmitted as is.
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Options for Code 39 and It.Pharm. Normal Code 39 Full ASCII Code 39 Full ASCII Code 39 if possible It. Pharmaceutical only It. Pharmaceutical if possible Not check CD Check CD Not transmit CD Transmit CD Not transmit ST/SP Transmit ST/SP Not transm.
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Enable concatenation 3.3.5. Options for Codabar Codabar (NW7): Codabar (NW7) is a variable length symbology with an optional check digit and printable start/stop characters. The next characters are supported: the digits 0 upto 9 the characters - $: / . + ...
For string format see figure 3.25. Options for Codabar: enable ABC code concatenation enable CX code concatenation enable check digit check disable transmission of the check digit disable transmission of start/stop selection of start/stop character translation ...
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Minimum data characters: Codabar labels are checked for a minimum of 1, 3 or 5 characters are set by the user. If the number of characters in the label is shorter than the number set, the label will be rejected. If the fixed length option is used for Codabar type labels then such labels will additionally be checked for fixed length.
ST/SP: abcd/abcd ST/SP: ABCD/TN*E ST/SP: abcd/tn*e ST/SP: <DC1><DC2><DC3><DC4>/ <DC1><DC2><DC3><DC4> Minimum data one character Minimum data three characters Minimum data five characters Disable intercharactergap check Enable intercharactergap check 3.3.6. Options for 2of5 and S-Code Code 2of5: Code 2of5 is a variable length symbology with an optional check digit and non-printable start and stop characters.
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Interleaved 2of5: This symbology encodes a pair of digits in each symbol, the number of digits are therefore always an even number. Information is carried in the bars and spaces. The start and stop pattern is not unique inside the code. It is therefore essential to use the fixed length option to prevent partial reads.
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Space check: This option enables the reading of Industrial 2of5 labels with a large or irregular spacing. Transmit S-Code as Interleaved 2of5: This option enables to transmit S-Code as Interleaved 2of5 by adding a leading zero. Not transmit CD Transmit CD Not check CD Check CD Minimum data one...
3.3.7. Options for IATA The IATA code is a variable length symbology with an optional check digit and non-printable start/stop characters. The following characters are supported: the digits 0 upto 9 The checksum is calculated as the modulo seven of the data string. IATA is acronym for International Air Transport Association.
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Options for MSI/Plessey: disable check digit check selection of the check digit calculation selection of the number of check digits to be transmitted Check digit: If the check digit calculation is required, then the appropriate calculation method must be selected.
Transmit CD1 Transmit CD1 and 3.3.9. Options for Telepen Telepen is a variable length symbology with a check digit and non printable start/stop characters. The following characters are supported: in numeric mode, the digits 00 upto 99 in full ASCII mode, all 128 ASCII characters ...
3.3.10. Options for UK/Plessey UK Plessey is a variable length symbology with a mandatory checksum and non printable start/stop characters. The following characters are supported: the digits 0 upto 9 the characters A upto F The checksum contains 2 digits and is calculated from the numerical values of all the data digits.
3.3.11. Options for Code 128 and GS1-128 Code 128: Code 128 is a variable length symbology with a mandatory check digit and non-printable start/stop characters. The following characters are supported: all 128 ASCII characters 4 non data function characters ...
Enable GS1-128 if possible: In this mode the decoded data characters are translated to the GS1-128 format. If the data does not comply with the GS1-128 format, then the label is transmitted as Code 128. Disable GS1-128 Enable GS1-128 only Enable GS1-128 if possible Disable...
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Options for Code 93: enable concatenation transmission of check digits calculation of check digits Concatenation: If a Code 93 bar code contains a leading space, the data is stored into the reader's buffer without the leading space. As soon as a Code 93 bar code is read without a leading space, the data is appended to the reader's buffer and the entire buffer is transmitted and cleared for new data.
3.3.13. Options for Code 11 Code 11 is a variable length symbology with 1 or 2 optional check digits and non printable start/stop characters. If the data is 10 or less characters, one check digit is used. If the data is more then 10 characters, then 2 check digits are used. The following characters are supported: ...
Transmit CD(s) 3.3.14. Options for Korean Postal Authority code Korean Postal Authority code is a fixed length numeric symbology with a mandatory check digit. The check digit is not transmitted. For string format see figure 3.36. Options for Korean Postal Authority code: ...
3.3.15. Options for Intelligent Mail Barcode Intelligent Mail Barcode is a symbology in four different states. It is formerly known as OneCode and is a variant of the 4-State Customer Barcode. The symbology is a height modulated and has a number of fixed lengths. For string format see figure 3.37.
3.3.16. Options for POSTNET POSTNET (Postal Numeric Encoding Technique) is a height modulated symbology with a number of fixed lengths. For string format see figure 3.38. Fixed data capacity: Numeric data: 5 / 6 / 9 / 11 characters ...
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Encodable characters: GS1 Databar and GS1 Databar Limited: digits 0 up to 9 GS1 Databar Expanded: subset of ISO 646: upper, lower case characters, digits, 20 punctuation characters and function character FNC1 The next GS1 Databar versions are supported ...
3.3.18. Options for Composite Codes CC-A is a modified MicroPDF417 version. CC-B is standard MicroPDF417. CC-C is standard PDF417. Maximum data capacity: CC-A: 56 characters CC-B: 338 characters CC-C: 2361 characters Symbol size: 1D part: see RSS and EAN codes ...
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For string format of composite codes see figure 3.44. Not ignore composite link flag Ignore composite link flag Disable Composite on GS1-Databar Enable Composite on GS1-Databar As a single component, only 1D component is allowed As a single component, only 2D component is allowed As a single component, only 1D+2D component...
3.3.19. Options for Codablock F Codablock-F is variable size multi row (stacked) symbology based on Code 128. All features of Code 128 do apply for Codablock F. Maximum data capacity: text compaction = alphanumeric data: 2684characters numeric compaction = numeric data: 5368 Characters Symbol size: ...
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ECC200: even number of rows and columns, square or rectangular shape square: minimum 10 * 10, maximum 144 * 144 modules rectangular: minimum 8 * 18, maximum 16 * 48 modules Error correction: ECC000 - 140: four levels of convolutional error correction, option for error detection only ...
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3.3.21. Options for Aztec Aztec code is a variable size matrix symbology with selectable error correction levels. Maximum data capacity: Standard Aztec: alphanumeric: 3067 characters numeric: 3832 characters byte: 1914 characters Aztec runes: values 000 up to 255 ( 3 digits ) Symbol size: Standard Aztec: ...
Options for Aztec: structured append time out: see chapter Read options 3.3.22. Options for Chinese Sensible code Chinese Sensible code is a matrix symbology with selectable error correction levels. The code allows 84 variable sized versions. Pattern: Each code is a square area comprised of a variable amount of nxn square symbols. A crossing alignment pattern is available in version 4 and its sequential versions.
For string format see figure 3.48. 3.3.23. Options for QR Code QR code is a variable size matrix symbology with selectable error correction levels. Maximum data capacity: Model 1: alphanumeric data: 707 characters 8-bit data: 486 characters numeric data: 1167 characters ...
Support for these options is reader dependent. The supported character set and the maximum decodable number of characters are reader dependent. Encodable characters: ASCII values 0 - 127 ( ISO 646 ) ASCII values 128 - 255 ( ISO 8859-1, Latin alphabet No. 1, extended ASCII ) ...
Symbol size: Model 1: 11 modules Model 2: 13 modules Model 3: 15 modules Model 4: 17 modules Error correction: Up to three levels of Reed-Solomon error correction for Model 4, no error correction for Model 1. Encodable characters: ...
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Additional features: extended Channel Interpretation (ECI): support for different character sets and data interpretations structured append: represent data in up to 8 Maxicode symbols Support for these options is reader dependent. The supported character set and the maximum decodable number of characters, is reader dependent. Encodable characters: ...
Additional features: extended Channel Interpretation (ECI): support for different character sets and data interpretations macro PDF417: represent data in up to 99.999 PDF417 symbols truncated PDF417: reduce some overhead to obtain smaller symbology size Support for these options is reader dependent. The supported character set and the maximum decodable number of characters, is reader dependent Encodable characters: ...
Additional features: extended Channel Interpretation (ECI): support for different character sets and data interpretations macro MicroPDF417 ( structured append mode ): represent data in up to 99.999 MicroPDF417 symbols Support for these options is reader dependent. The supported character set and the maximum decodable number of characters are reader dependent Encodable characters: ...
4. STRING OPTIONS This chapter describes the alterations which can be made to the format of the transmitted data string. Options available are: Case conversion conversion of bar code data The bar code data has the format as described in chapter ‘Code Options’. Set prefix and suffix ...
No case conversion Convert to upper case Convert to lower case Exchange case 4.2. Set prefix and suffix A prefix and suffix of maximum 4 direct input entries each may be included in front and at the end of the string respectively. Keyboard wedges may additionally be programmed with the special keys supported by the keyboard, e.g.
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How to clear a prefix or suffix: To clear the suffix for example for Code 128 scan the following labels: <SET> <Set suffix Code 128> <END> How to set a suffix for all symbologies: To configure for example the suffix <CR> for all symbologies scan the following labels: <SET>...
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Code identification Opticon: A code identification and the code length may be included as a prefix or suffix. The direct input 'code identifier' provides a quick method of programming in addition to programming a separate prefix or suffix for each bar code type. See figure 4.04.
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In case the modifier is an asterix (*), the value depends on the options of the symbology or on the configured Code options. For details refer to their own respective modifier tables. See figures 4.06 up to 4.17. - 70 -...
Code length: The code length is transmitted as 2 digits, representing the decimal number of data characters transmitted, excluding prefix and suffix characters. For 2D bar codes the code length is transmitted as 6 digits. It is also possible to send for both 1D and 2D codes the length as 6 digits.
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Korean Postal Authority code Intelligent Mail Barcode POSTNET GS1-Databar Composite codes Codablock F DataMatrix Aztec Chinese Sensible code QR Code Maxicode PDF417 MicroPDF417 Clear all prefixes Preamble - 77 -...
5. READ OPTIONS This chapter allows to set the read mode, trigger type, redundancy and illumination. 5.1. Read mode options The following read modes are available: Single read: When a bar code has been decoded, the reader will be turned OFF. The reader must be triggered again to read another label.
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Trigger repeat: This option makes it easier to select a single bar code from a sheet filled with bar codes. If the trigger switch is pressed once, the laser beam is on during the configured read time. The laser beam can now be moved to the required bar code. If the trigger switch is pressed again, the bar code is decoded and transmitted.
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Single read Multiple read Continuous read Disable trigger Enable trigger Add-on wait mode disabled Add-on wait mode 0.25 sec. Add-on wait mode 0.50 sec. Add-on wait mode 0.75 sec. Disable trigger repeat Enable trigger repeat - 97 -...
5.1.1. Multiple read reset time This option can be used in conjunction with multiple read mode. for Laser and CCD readers, it sets the time that the reader should be pointed away from the label before it can decode the same label again ...
5.1.2. Quiet zone options With this option the reader can decode bar codes that have smaller start and/or end margins than specified for the symbology. Be careful when using this option. It may increase the possibility of partial reads and ghost reads. Do not use smaller margin checks then necessary.
Disable auto trigger Enable auto trigger 5.1.4. Detection Mode There are three methods for detecting a target code. (1) Green aiming detection When a target code falls within the aiming range while the green aiming light is emitted, the target is detected. It is recommended to use this mode indoors because the detectability is reduced in an environment of higher illuminance levels than indoor’s.
5.1.5. Auto Trigger Condition The detection sensitivity can be adjusted. The sensitivity varies with ambient environment and the adjustment may be needed. Sensitive Normal Insensitive 5.2. Read time options The length of the period that the reader is ON after the trigger switch is pressed, or (in multiple or continuous read mode) after a label has been read.
7 seconds 8 seconds 9 seconds Read time * 10 Indefinitely 5.3. Redundancy This is the number of times that a label must be correctly decoded before it is transmitted. Selecting a higher redundancy count makes reading slower, but it reduces the probability of reading errors, especially when labels of poor definition are used.
Positive bar codes Negative bar codes Positive and negative bar codes Positive bar codes Positive and negative bar codes SET / END 5.5. Floodlight and aiming options The floodlight and aiming options affect the light source that illuminates the area of the bar code symbol.
with illumination turned off. Disable floodlight Enable floodlight Alternating floodlight Prevent specular reflection 5.6. Prevention of flicker When there is not target to be read, flicker occurs because of the LED illumination, and this flicker can be prevented with setting. However, by enabling the setting, codes on LCD screen will be difficult to be read.
5.7. LED aiming Green LED floodlight used for aiming can be set to enable / disable. The brightness is also configurable. Enable LED aiming Disable LED aiming Brightness “High” Brightness “Standard” Brightness “Low” - 105 -...
6. INDICATOR OPTIONS This chapter describes the options for the Buzzer and Good Read LED. 6.1. Buzzer settings These options determine the buzzer type, tone, duration and loudness. The buzzer tone and loudness are reader dependent due to different buzzer types. Buzzer type: The buzzer may be disabled or enabled as either a hardware or software buzzer.
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Disable startup buzzer: When this options is selected, the reader will not sound the buzzer after the reader is supplied with power. Disable buzzer Enable buzzer Single tone buzzer High - low buzzer Low - high buzzer Buzzer duration 50 msec Buzzer duration 100msec Buzzer duration 200 msec Buzzer duration 400 msec...
Disable startup buzzer Enable startup buzzer 6.2. Good read LED The Good Read LED can be disabled or set for several durations. Disable indicator Indicator duration: 0.2 s Indicator duration: 0.4 s Indicator duration: 0.8 s - 108 -...
7. MISCELLANEOUS 7.1. Diagnostics The options in this part are primarily intended for diagnostic purposes. The following options are available: Transmit software version: The software version is transmitted. Transmit settings: The reader settings are transmitted as a string of hexadecimal numbers. Transmit ASCII printable string: The printable ASCII characters Hex 20 up to Hex 7F are transmitted.
7.2. Serial configuration support Error message - No label: Following this menu label a maximum of 4 direct input characters may be read. These characters will be transmitted if during the read time of the reader no label was detected. This function is only available on readers where the trigger is enabled. If no direct input character is read following the command, the error message is disabled.
APPENDIX A. TROUBLE SHOOTING The trouble shooting diagram can be of help if your reader does not operate as expected. If any problem is not covered or solved with this diagram you need to contact your dealer. Whether the reader operates or not can be checked in the following way: •...
APPENDIX B. GLOSSARY OF TERMS AIM: An acronym for Association for Automatic Identification and Mobility. This is referring to an organization that is an authority for standards for bar codes. ASCII: An acronym for American Standard Code for Information Interchange. This refers to a set of 128 characters that are standardized.
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CCD reader: A scanning device which uses the CCD technology. CCD is an acronym for Charge Coupled Device. Light from a lightsource within the CCD reader is reflected by a bar code label and falls on an array of light sensitive elements in the reader, the CCD. Whether the light is reflected depends on black or white parts of the bar code.
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Default: A standard option or parameter setting. Default settings are present in the memory of a device. If no other value or option is chosen within a program (or bar code menu), the default settings are automatically chosen. Disable: To disable an option means, to deactivate. ECC: An acronym for Error Correction Code.
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GUI: This key is the Windows key on a Microsoft keyboard or the Command key on a Apple keyboard. HID: An acronym for Human Interface Device. Keyboard, mouse and barcode readers belong to this category. IEEE 802.15.4: A wireless transmission protocol that uses radio frequency waves. Intensity: The amount of radiant or luminous flux per unit solid angle that is diverging from a light source.
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Postamble: Also known as common suffix. This is one or more characters, which accompany the transported data. The postamble is transmitted at the end of the data, right after the code specific suffix. Protocol: Usually, a specified method for determining how and when to format and send data. A serial (asynchronous) transmission protocol might include the baud rate, handshake method (XON/XOFF, etc.), parity setting, number of data bits (character length), and number of stop bits.
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Scan rate: The number of scans (the attempts to recognise a barcode symbol optically) per time unit. Scanner: See Scan engine. Start bit: A control bit used to indicate the start of a group of data bits being sent in asynchronous transmission.
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